EP2486753A1 - Procédé et agencement permettant de supporter le transfert d'un terminal mobile dans certains scénarios - Google Patents

Procédé et agencement permettant de supporter le transfert d'un terminal mobile dans certains scénarios

Info

Publication number
EP2486753A1
EP2486753A1 EP09850293A EP09850293A EP2486753A1 EP 2486753 A1 EP2486753 A1 EP 2486753A1 EP 09850293 A EP09850293 A EP 09850293A EP 09850293 A EP09850293 A EP 09850293A EP 2486753 A1 EP2486753 A1 EP 2486753A1
Authority
EP
European Patent Office
Prior art keywords
mobile terminal
handover
cell
arrangement
doppler
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP09850293A
Other languages
German (de)
English (en)
Other versions
EP2486753B1 (fr
EP2486753A4 (fr
Inventor
Jonas Medbo
Konstantinos Dimou
Jan-Erik Berg
Xie Jun
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Telefonaktiebolaget LM Ericsson AB
Original Assignee
Telefonaktiebolaget LM Ericsson AB
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Telefonaktiebolaget LM Ericsson AB filed Critical Telefonaktiebolaget LM Ericsson AB
Publication of EP2486753A1 publication Critical patent/EP2486753A1/fr
Publication of EP2486753A4 publication Critical patent/EP2486753A4/fr
Application granted granted Critical
Publication of EP2486753B1 publication Critical patent/EP2486753B1/fr
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/24Reselection being triggered by specific parameters
    • H04W36/32Reselection being triggered by specific parameters by location or mobility data, e.g. speed data
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S11/00Systems for determining distance or velocity not using reflection or reradiation
    • G01S11/02Systems for determining distance or velocity not using reflection or reradiation using radio waves
    • G01S11/10Systems for determining distance or velocity not using reflection or reradiation using radio waves using Doppler effect
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/24Reselection being triggered by specific parameters
    • H04W36/32Reselection being triggered by specific parameters by location or mobility data, e.g. speed data
    • H04W36/324Reselection being triggered by specific parameters by location or mobility data, e.g. speed data by mobility data, e.g. speed data

Definitions

  • the invention relates to a method and an arrangement in a telecommunication system, in particular to enable
  • a handover of a mobile terminal is initiated if the mobile terminal receives a signal power from a target cell, which is a hysteresis (H) dB higher or lower than a signal power received from a serving cell for more than time- to-trigger (TTT) seconds.
  • a target cell which is a hysteresis (H) dB higher or lower than a signal power received from a serving cell for more than time- to-trigger (TTT) seconds.
  • TTT time- to-trigger
  • a faster handover triggering can be enabled by changing to more "aggressive" mobility parameters, i.e. a shorter TTT and/or smaller H.
  • H hysteresis
  • a first method for supporting a handover of a mobile terminal from a serving cell to a target cell.
  • it is determined if a mobile terminal has moved in a predefined way in relation to a potential target cell based on Doppler shift measurements, and if the mobile terminal has moved in the predefined way, at least one handover related parameter is adjusted in the mobile terminal in order to enable a handover.
  • a first arrangement which is adapted to support a handover of a mobile terminal from a serving cell to a target cell.
  • the above method and arrangement may be used to avoid unwanted handover failures or ping-pong handovers, since e.g. a fast handover is enabled in situations where the mobile terminal risks to lose contact with its serving cell before it can be handed over to a serving cell.
  • a second method for determining if the Doppler based first method described above should be used within a certain cell or not.
  • handover related information is generated and communicated to mobile terminals located in the cells, in which the Doppler based first method should be used.
  • a second arrangement which comprises different units adapted to perform the determination, generation and communication in accordance with the second method described above.
  • the above second method and arrangement may be used in order to apply the Doppler based first method only in situations or cells where it will have the desired effect, i.e. situations or cells comprising a certain type of handover problems, such as e.g. corner effects.
  • the first method and arrangement may be implemented in
  • a handover related parameter is changed if the Doppler shift relative a potential target cell first is below one threshold and then rises above another threshold, all while the received signal power of the potential target cell exceeds yet another threshold.
  • the handover related parameter could be either one or both of the Time To Trigger and the Hysteresis H, which could be set to more aggressive values in order to enable a fast handover decision, according to one embodiment.
  • the adjusted parameters are restored when a handover is completed or when a predetermined time period has elapsed after the parameters were changed.
  • the Doppler based first method is applied when a third criterion is fulfilled.
  • the third criterion is fulfilled if the mobile terminal is in a cell comprising characteristic elements, such as e.g. an intersection in a Manhattan-like area, or two approximately co-located narrow cells pointing in opposite directions along a road, railway or waterway, where vehicles pass by.
  • characteristic elements such as e.g. an intersection in a Manhattan-like area, or two approximately co-located narrow cells pointing in opposite directions along a road, railway or waterway, where vehicles pass by.
  • the Doppler based first method could be applied in a mobile terminal if it has a velocity which exceeds a
  • predetermined threshold if the system load exceeds another predetermined threshold.
  • the mobile terminal may receive information concerning the Doppler based first method, such as e.g. when to apply it, or what values of TTT or H to use, via a
  • Doppler based first method is to be used within a whole cell, it could be convenient to communicate information concerning the
  • Doppler based first method in a broadcast message in the cell. If it is identified that a certain mobile terminal in a certain cell should use the method, it could be convenient to communicate information concerning the Doppler based first method via explicit signalling to the mobile terminal.
  • handover parameters to be used to induce a handover or
  • a computer program product which comprises instructions, which will perform the first or second method above when executed by a processor or the like.
  • the instructions could also be said to, when executed by a processor or the like, cause the units of the different arrangements described above to perform tasks in accordance with the first and second method above.
  • Figures 2a and 2b are block diagrams illustrating embodiments of an arrangement in a mobile terminal.
  • FIG. 3 is a flowchart illustrating another embodiment of method steps.
  • FIG. 4 is a block diagram illustrating an embodiment of an arrangement in a network node.
  • Figures 5a and 5b are flowcharts illustrating embodiment of method steps.
  • - Figures 6 and 7 illustrate two different situations in an intersection in a Manhattan-type scenario.
  • - Figure 8 illustrates a Scenario Type II along a railway.
  • - Figures 12 and 13 are flow charts illustrating method steps in e.g. a Scenario Type II, according to one embodiment.
  • the solution is particularly useful in some handover-related situations, which occur in certain traffic scenarios, which will be described in more detail further below.
  • the solution may also be used in other, similar situations, where it is desirable to determine if a moving device has changed
  • handover related parameters will be discussed in terms of the "aggressive mobility parameters" "short” TTT and “small” H, henceforth also called TTT_Aggressive and H_
  • Aggressive parameters is within this document meant parameters, which when used in a handover situation will enable the performance of a fast handover, and by fast
  • handover is within this document meant a handover which is performed notably faster than a handover performed using default mobility parameters, i.e. the decision to initiate a handover is taken earlier.
  • default mobility parameters is meant conventional or conservative mobility parameters used in most regular handover situations.
  • small H and short TTT are within this document meant small and short in relation to conventionally used default values of TTT and H, respectively.
  • a sufficiently long TTT value In the normal regular case, a sufficiently long TTT value, and a
  • scenario is within this document meant a situation comprising certain characteristic elements.
  • a situation comprising an intersection surrounded by high buildings is within this document referred to as a Manhattan-like scenario, or a
  • Scenario Type I The buildings are characterised by that communication radio signals cannot easily propagate through them or pass over their rooftops. Communication radio signals will instead propagate along the relatively narrow street canyons between the buildings.
  • the buildings could be e.g. sky-scrapers, thus "Manhattan”. Below, different embodiments of the Doppler based procedure will be described.
  • the provided Doppler based procedure enables the use of aggressive handover related mobility parameters, i.e. a short TTT and/or a small H, upon the detection of e.g. that a mobile terminal has turned a street corner in a Manhattan-like scenario.
  • aggressive handover related mobility parameters i.e. a short TTT and/or a small H
  • the signal strength from a serving cell may drop as much as 20 to 30 dB within 10 to 20 meters in such a corner scenario, and the downlink
  • a mobile terminal should be able to detect e.g. if it has turned or is about to turn a corner or not. This detection is performed by utilising Doppler shift
  • the mobile terminal in order to perform the detection, should have the capability to measure Doppler shift. This capability is not standardised in most mobile communication systems today, but may be implemented in future versions of many standards. Moreover, even if Doppler shift measurements is not part of any standard, this does not prevent that some mobile terminal vendors may implement this feature and offer it as an additional feature to their clients, in case the operator's network supports this feature.
  • the aggressive and default mobility parameters to be used could be tuned to optimal values by the network, which then should inform the mobile terminals of the tuned values.
  • the network should be able to configure a Doppler shift difference threshold, which indicates that a mobile terminal is in a situation where it may run the risk of losing contact with its serving base station before it has been handed over to a target base station, or that indicates that a mobile terminal has left a high speed train at a station.
  • a Doppler shift difference threshold which indicates that a mobile terminal is in a situation where it may run the risk of losing contact with its serving base station before it has been handed over to a target base station, or that indicates that a mobile terminal has left a high speed train at a station.
  • the mobile terminals could be informed of the number of cells on which they are to perform Doppler shift measurements.
  • the described procedure could also be used in other situations than corner turning in Manhattan-like areas.
  • the procedure could be used in a high speed train scenario, henceforth called a Scenario Type II.
  • the Type II scenario can be described as when, at e.g. a train station, two co-located base stations generating narrow cells, which point in each direction along the tracks, where some high speed trains stop, and some do not stop at the station.
  • a third base station is located e.g.
  • Type II the mobility parameters of mobile terminals
  • the Scenario Type II is not limited to a railway, but can also be other scenarios where two relatively co-located narrow cells point in relatively opposite
  • characteristic Doppler signature or change of Doppler shift is at hand. If the characteristic Doppler signature is at hand, in an appropriate situation, it signifies e.g. that the mobile terminal has entered a situation where it risks losing contact with its serving cell before it has been handed over to a target cell, and that a decision to enable fast handover to a target cell can be made.
  • the target cell may be selected using any therefore suitable method.
  • Doppler based procedure is illustrated by a flow diagram in figure la.
  • a more detailed embodiment of the Doppler based procedure is illustrated by a flow diagram in figure lb.
  • potential target cell (s) are evaluated by determining 102b if the received signal power P from the cells exceeds a certain first threshold relative to the transmit power of the serving cell P S erv, i.e. if P>kiP serv .
  • the cells for which the received power exceeds kiP ser v are candidate target cells.
  • is below a second threshold, possibly relative to a maximum value of the Doppler shift for that cell f max Dop ,
  • this comparison is only made for a selection of candidate cells. If the absolute Doppler value for a cell is found to be below the second threshold, the cell is added 108b to a list. The cell remains in the list until the received signal power from the cell drops below the first threshold. The cell could also be removed 104b from the list according to some other criteria, such as e.g. that a certain time of expiration has elapsed after the cell was added to the list.
  • the handover settings are changed 112b, and simultaneously, a timer T may be started. After a handover has been completed or a predetermined time T>k3 has elapsed after the settings were changed, the handover settings are restored 116b to the default values.
  • the constant k3 may be set based on e.g.
  • simulations or be set to an estimated value.
  • the thresholds to which the absolute Doppler values of the cells are compared may be set as a value depending on the maximum absolute
  • Doppler value of the evaluated cell which is a way to
  • the network could be aware of the propagation environment in the cell, e.g. a
  • Figure 2a which is a block diagram, illustrates an arrangement in a mobile terminal according to one embodiment of the invention.
  • the example arrangement comprises a Movement determining unit 202a, which is adapted to determine whether the mobile terminal moves in a certain predetermined way in relation to a potential target cell. The determination is based on measurements of the
  • Parameter setting unit 204a is adapted to adjust one or more handover related parameters when it is determined that the mobile terminal has moved in the predefined way in relation to at least one potential target cell.
  • the parameter (s) are adjusted in order to enable a desired handover
  • Figure 2b which is a block diagram, illustrates an arrangement in a mobile terminal according to one embodiment of the invention.
  • Signals 218i- N b from potential target cells are received by a receiving unit 202b.
  • the received signals are then analysed by a power determining unit 204b, where it is determined whether the received signal power from the potential target cells, respectively, exceeds a predetermined first threshold.
  • the Doppler shift relative that cell which is measured by a Doppler measuring unit 205b, is analysed by a 1 st Doppler determining unit 206b, where it is determined if the absolute Doppler value for the cell is e.g. below a predetermined second threshold.
  • the measurement in the Doppler measuring unit and the analysis in the 1 st Doppler determining unit is performed in parallel with the evaluation of received signal power. This alternative solution is illustrated as dashed arrows in figure 2b.
  • the Doppler measuring unit could alternatively be integrated in the Receiving unit. If it is determined in the power
  • the determining unit 204b that the received power from a cell is above the first threshold and it is determined in the 1 st Doppler determining unit 206b that the absolute Doppler value for the same cell is below the second threshold, this cell is added to a list 209b by an Adding unit 208b.
  • the Adding unit may also, at the same time, be a Removing unit, which removes cells from the list 209b if they no longer fulfil e.g. the received power criterion.
  • a 2 nd Doppler determining unit 210b having knowledge of the content of the list 209b, it is determined if e.g. the absolute Doppler value of any of the cells in the list exceeds a predetermined third threshold. When one of the absolute Doppler values exceeds the third threshold, the handover related mobility parameters of the mobile terminal are changed by the parameter setting unit
  • the parameter setting unit may also start a timer T when the parameters are changed, and restore the parameters to default values when a handover has been completed or a
  • predetermined time T>k3 has elapsed after the parameters were changed .
  • FIG. 2a and 2b is also illustrated a computer program product 206a, 214b which comprises instructions 208a, 216b, which when executed by a processor 210a, 218b or similar, will cause the units 202a-204a and 202b-212b, respectively, to perform their tasks according to an embodiment of the
  • Figure 3 shows a flow diagram of the procedure in a network node according to one embodiment.
  • the network node is assumed to have received information regarding a certain cell at some point, e.g. by collecting the information through monitoring traffic and drawing conclusions, and/or by receiving the information from another node, e.g. on a higher hierarchical level.
  • information could relate to e.g. if the cell comprises certain characteristic elements, such as a Scenario Type I or Type II. Then, it is evaluated 304 in the network node if it the described Doppler based procedure should be used in the cell. If it is found that it should be used, information related to handover in that cell is generated 306 and communicated 308 to mobile terminals in the cell.
  • the information could comprise e.g. aggressive mobility parameters to be used in case it is decided in the mobile terminal that a situation calls for a fast handover, and/or threshold values, etc.
  • the information could further or alternatively comprise an indication of the presence of a certain scenario type in the cell, for example a Scenario Type I or Type II, or any other indication of if the described procedure is supported in the cell.
  • the network node could be the eNB in the cell in question, or another node in the network connected to one or more cells, such as e.g. an RNC, or a relay node.
  • the handover related information could also be generated when a mobile terminal enters the cell in question.
  • Figure 4 which is a block diagram, illustrates an arrangement in a network node according to one embodiment of the invention.
  • Information is received from e.g. the cell in question or from a network element on a higher hierarchical level, regarding a certain cell at some point by a receiving unit 402. Based on the received information, it is determined in a determining unit 404 if the described Doppler based procedure should be used in the cell in question. If it is determined that the Doppler based procedure should be used, information related to handover in that cell is generated in a generating unit 406. The generated information is then
  • FIG 4 is also illustrated a computer program product 410, which comprises instructions 412, which when executed by a processor 414 or similar, will cause the units 402-408 to perform tasks according to an embodiment of the described procedure.
  • the generation of handover related information may also include retrieving previously stored values from a memory, or the like.
  • figures 2a, 2b and 4 merely illustrate various functional units in the mobile terminals 200a and 200b and the network node 400 in a logical sense. However, the skilled person is free to implement these functions in
  • the invention is generally not limited to the shown structure of the mobile terminals 200a and 200b or network node 400.
  • the procedure steps illustrated in figures la, lb, 3, 5a, 5b, 12 and 13 are also illustrated in a logical sense. As described earlier, it is mainly mobile terminals moving faster than a certain speed, which experience handover failure due to the corner effect. Further, it is mainly when the system traffic load is relatively high that the handover failures occur. Therefore, it would be beneficial to be able to apply the described Doppler based procedure only when the mobile terminal speed and the system load exceed a certain level, which could be addressed by the following:
  • FIG. 5a which is a flow diagram, illustrates some procedure steps in a network node according to one embodiment of the invention.
  • a system load exceeds a predetermined threshold TH_LOAD. If the system load exceeds TH_LOAD, it is evaluated if the speed of a mobile terminal exceeds the predetermined threshold TH_SPEED. If the speed of the mobile terminal exceeds TH_SPEED, the mobile terminal in question is notified e.g. via explicit signalling, concerning information, which the mobile terminal may need when entering a certain handover related situation.
  • the thresholds could be selected based e.g. on collected
  • the evaluation of if the system load and/or mobile terminal velocity exceeds certain thresholds could be performed in the mobile terminal, which then would need to acquire knowledge of the system load and the mobile terminal velocity, e.g. through signalling from another network element and/or by performing measurements.
  • a mobile terminal velocity e.g. through signalling from another network element and/or by performing measurements.
  • the terminal can determine its own velocity, but not determine the system load.
  • the evaluation or a part of the evaluation takes place in the mobile terminal, the evaluation could be preceded by the reception of an indication of that the serving cell supports the described Doppler based procedure.
  • Figure 5b which is a flow diagram, illustrates some procedure steps according to one embodiment of the invention.
  • it is evaluated in a network node if the criteria 504b or 506b, 508b and 510b for applying the described Doppler based procedure are fulfilled for a certain mobile terminal. If the criteria are fulfilled, and the Doppler based procedure should be applied in a mobile terminal, the mobile terminal is notified 512b through e.g. explicit signalling.
  • Figure 6 illustrates an intersection in a Manhattan-like scenario, and shows a mobile terminal 602, which is served by a base station, BS1.
  • the mobile terminal is located e.g. in a car or on a bike, and moves at a certain speed away from BS1.
  • three potential target base stations are available to the mobile terminal i.e. BS2, BS3 and BS4, one in each street canyon emerging from the
  • the mobile terminal slows down and turns left towards BS3. The turn is made in a
  • the mobile terminal when using conventional handover settings, may lose contact with its serving base station before it is handed over to a target base station.
  • the target base station is BS3.
  • a decision to change the handover settings in order to enable a fast handover can thereby be made based on the
  • Figure 7 illustrates an intersection in a Manhattan-type scenario, similar to the one illustrated in figure 6. In this situation, however, the mobile terminal 702 does not turn in the intersection, but continues straight ahead towards BS2.
  • the Doppler signature of this scenario is illustrated in
  • Figure 8 illustrates two relatively co-located base stations, BS1 and BS2, each controlling a relatively narrow cell 806, 808, directed along a railway track 804, where the cells are directed in approximately opposite directions.
  • BS1 may for example be directed to the north, and BS2 directed
  • the base stations are located close to a railway station 810, where another base station,
  • BS3 is located, as illustrated in figure 8.
  • a mobile terminal served by BS1 is situated on a high speed train 802, which approaches the railway station 810 at a certain speed.
  • aggressive mobility parameters are used by mobile terminals located in the high speed train, in order to handle e.g. a handover from BS1 to BS2 at full speed. If the train stops at the railway station, the mobile terminal could be handed over to either BS2 or BS3.
  • the operator's wish is though, that a mobile terminal, which leaves the train at the station, is handed over to BS3, and that a mobile terminal which stays in the train is handed over to BS2.
  • the reason for this being that the cell 808, generated by BS2, is mainly targeted to mobile terminals travelling in the train.
  • a mobile terminal which leaves the train and moves e.g. to the train station, is attached to BS2, it will sooner or later be handed over to BS3.
  • An operator's wish is to minimize the number of generated handovers.
  • the operator's wish is to facilitate a handover to BS3 of mobile terminals which leave the train at the station.
  • an operator would like to obstruct or prevent a handover to BS2 of a mobile terminal which leaves the train at the station, which may be done by changing the mobility parameters of the mobile terminal to conservative settings.
  • the mobile terminal is in a situation where it, if using conventional handover settings, may be handed over to BS3 when the train is in front of the train station, and shortly thereafter, the mobile terminal would be handed over to BS2. This is not a desired system behaviour from an operators point of view.
  • Doppler signature is throughout this document meant the changes in Doppler shift relative one or more base station (s), seen from a mobile terminal during a certain course of events, e.g. when a mobile terminal turns a corner in a Manhattan-like scenario.
  • Figure 9 illustrates the value of the Doppler shift seen from the mobile terminal 602 relative BS1-BS4 when moving through an intersection as illustrated in figure 6.
  • Bold lines illustrates line of sight to a BS .
  • the Doppler value is proportional to the speed of the mobile terminal.
  • the Doppler value relative BS2-BS4 is high. Due to corner diffraction, it appears to the mobile terminal as if it approaches BS2-BS4 equally fast.
  • the mobile terminal starts to slow down, which can be seen as a decrease in the absolute Doppler values.
  • the mobile terminal enters the intersection (x ⁇ 18) it has line of sight to all base
  • BS1 and BS2 are no longer in LOS from the mobile terminal, and consequently, BS1 and BS2 will then be removed from the list of base stations, which are to be further evaluated.
  • Figure 10 illustrates the value of the Doppler shift seen from the mobile terminal 702 relative BS1-BS44 when moving through an intersection as illustrated in figure 7. Until the mobile terminal enters the intersection (x ⁇ 18), the Doppler values are similar to the ones in figure 9. Here, the mobile terminal moves approximately perpendicular to BS3 and BS4 through the whole intersection, which entails that the criteria
  • BS3 and BS4 are added to a list 209b of base stations to be further evaluated, when applying an embodiment of the
  • BS3 and BS4 will be removed from the list 209b before they fulfil the criterion
  • BS1 and BS2 will not be added to the list since the Doppler value relative these base stations do not fulfil
  • the Doppler signature of the scenario illustrated in figure 7 does not indicate that a certain scenario is at hand, and the mobile terminal will therefore not be triggered to change the handover settings.
  • the measured values could be forwarded from the mobile terminal to another node, which then could perform the evaluation of the values and communicate the result to the mobile terminal or order a change of handover parameters. This would, however, be slower and generate more traffic in the network.
  • Figure 11 illustrates the approximate point in an intersection where it can be determined whether a mobile terminal according to one embodiment, of which the movement is illustrated as a dotted line, is about to turn around a corner, or not, according to one embodiment.
  • the mobile terminal moves in the same direction as the mobile terminal in figure 6, i.e. from the "north" to the "east”.
  • Figure 12 which is a flowchart, illustrates a Doppler based procedure in a Scenario Type II according to one embodiment, where the mobility parameters are already set to aggressive values when entering the flow chart. The flow chart steps
  • 1202-1212 are similar to the ones in figure lb, except that the criteria in 1208 and 1212 are different, since it is a different scenario. It should also here be noted that the threshold values of 1208 and 1212 does not necessarily need to be normalized using maximum Doppler values.
  • FIG 12 there is also a second branch in the flow chart, i.e. 1214- 1218, which identifies or sorts out base stations located near the track or road, but which are not intended to serve mobile terminals in vehicles moving along a track or road.
  • the handover parameters of the mobile terminal are changed 1220 if the absolute value of the Doppler shift in relation to the potential target cells in list 1 is below a predetermined threshold.
  • the handover parameters are restored 1224 to aggressive values if the mobile terminal starts to move fast 1222 in relation to the potential target cells. If the mobile terminal deviates from the track (not shown) or a certain time T4 has elapsed after the handover parameters were changed, the handover parameters will not be restored to the original values.
  • the deviation from the track could be determined by analyzing the Doppler shift in relation to the potential target cells, especially in relation to the potential target cells in list 2.
  • Figure 13 which is a flowchart, illustrates a Doppler based procedure according to one embodiment in a Scenario Type II, where the mobility parameters are already set to aggressive values when entering the flow chart.
  • the mobility parameters are changed 1304 from aggressive settings to conservative settings in order to avoid unwanted handovers.
  • the Doppler shift in relation to the potential target cells if the mobile terminal has deviated from a certain path, e.g. a track or road along which two narrow cells, each generated by one of two relatively co- located base stations, point in relatively opposite
  • the criterion could e.g. be that the Doppler shifts relative the potential target cells indicate that the mobile terminal moves faster than a certain speed threshold.
  • An advantage of the invention is that it enables to only adapt the mobility parameters when needed, e.g. when a mobile terminal is turning a corner in a Manhattan-like scenario when the communication system serving the mobile terminal is having a relatively high load. This will reduce the number of handover failures without creating considerable amounts of ping-pong handovers .

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Radar, Positioning & Navigation (AREA)
  • Remote Sensing (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

L'invention concerne un procédé et un agencement permettant dans un terminal mobile dans un réseau de communication sans fil de supporter le transfert d'une cellule de desserte vers une cellule cible. Le procédé consiste à déterminer 104a si le terminal mobile s'est déplacé d'une manière prédéfinie par rapport à au moins une cellule cible potentielle. Cette détermination est basée sur des mesures de l'effet Doppler 102a. Le procédé consiste par ailleurs à ajuster 106a au moins un paramètre lié au transfert de manière à permettre un transfert rapide s'il est déterminé que le terminal mobile s'est déplacé d'une manière prédéfinie par rapport à la ou aux cellules cibles potentielles.
EP09850293.3A 2009-10-07 2009-10-07 Procédé et agencement permettant de supporter le transfert d'un terminal mobile dans certains scénarios Not-in-force EP2486753B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/SE2009/051116 WO2011043705A1 (fr) 2009-10-07 2009-10-07 Procédé et agencement permettant de supporter le transfert d'un terminal mobile dans certains scénarios

Publications (3)

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EP2486753A1 true EP2486753A1 (fr) 2012-08-15
EP2486753A4 EP2486753A4 (fr) 2014-07-09
EP2486753B1 EP2486753B1 (fr) 2015-09-09

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US (1) US9210641B2 (fr)
EP (1) EP2486753B1 (fr)
WO (1) WO2011043705A1 (fr)

Cited By (1)

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WO2017032462A1 (fr) * 2015-08-24 2017-03-02 Telefonaktiebolaget Lm Ericsson (Publ) Traitement de signaux de liaison montante dans un scénario de vitesse élevée

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EP2486753B1 (fr) 2015-09-09
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US20120289233A1 (en) 2012-11-15
EP2486753A4 (fr) 2014-07-09

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